3.5.1.3	2-oxoglutaramate + H2O	-	
3.5.1.3	2-oxoglutaramate + H2O	alpha-ketoglutaramate	
3.5.1.3	2-oxoglutaramate + H2O	physiological function of omega-amidase might be hydrolysis or transfer of amide group of alpha-ketoglutarate	
3.5.1.3	2-oxoglutaramate + H2O	the in vivo substrates are generated by transamination of glutamine and asparagine, respectively	
3.5.1.3	2-oxoglutaramate + H2O	glutamine transaminase and omega-amidase potentially act in tandem to close the methionine salvage cycle in bacteria and plants	
3.5.1.3	2-oxosuccinamate + H2O	alpha-ketosuccinamate	
3.5.1.3	2-oxosuccinamate + H2O	the in vivo substrates are generated by transamination of glutamine and asparagine, respectively	
3.5.1.3	2-oxosuccinamate + H2O	the product of asparagine transamination, 2-oxosuccinamate, can be hydrolyzed by the enzyme omega-amidase to form oxaloacetate and ammonia	
3.5.1.3	additional information	-	
3.5.1.3	additional information	conversion of glutamine into alpha-ketoglutarate and ammonia is brought about by two distinct enzymes: glutamine transaminase and omega-amidase